10 results on '"Giral, Roberto"'
Search Results
2. Improved Model Predictive Current Control of the Versatile Buck-Boost Converter for a Photovoltaic Application.
- Author
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Restrepo, Carlos, Barrueto, Brian, Murillo-Yarce, Duberney, Munoz, Javier, Vidal-Idiarte, Enric, and Giral, Roberto
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DC-to-DC converters , *MAXIMUM power point trackers , *ANALOG-to-digital converters , *PREDICTION models , *COST functions - Abstract
The digital implementation of all the control loops of a versatile buck-boost (VBB) dc–dc converter used in a stand-alone photovoltaic application is proposed in this paper to improve existing digital-analog sliding-mode-based implementations. All three control loops: maximum power point tracking (MPPT), fast input voltage regulation, and inner high-bandwidth current control, have been programmed in the same digital signal controller (DSC). A Model Predictive Control (MPC) based algorithm has satisfactorily solved the challenge of implementing the nominal 100 kHz switching frequency current loop. The MPC cost function is distributed throughout the algorithm to achieve three specific goals: the tracking of the reference current (G1), a quasi-constant steady-state switching frequency (G2), and the assurance that the duration of an interval is larger than the time required to calculate it (G3). The third goal requires the current control to toggle between peak- and valley-modes depending on the operating point. The correct fulfillment of these control objectives on the proposed MPC-based algorithm has been validated through simulations and experimental tests performed on a purpose built-prototype. [ABSTRACT FROM AUTHOR]
- Published
- 2022
- Full Text
- View/download PDF
3. Energy Management of a Fuel-Cell Serial–Parallel Hybrid System.
- Author
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Ramirez-Murillo, Harrynson, Restrepo, Carlos, Calvente, Javier, Romero, Alfonso, and Giral, Roberto
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ELECTRIC power systems research , *FUEL cells , *DC-to-DC converters , *ENERGY transfer , *ELECTRIC current converters - Abstract
In this paper, a serial–parallel hybrid (SPH) power system formed by a fuel cell (FC), an auxiliary storage device (ASD), and the current-controlled dc–dc converters responsible for the power management are realized by using the digital signal controller (DSC) TMS32F28335. The main energy management goal is to transfer energy from the sources (FC or ASD) to the load while ensuring dc bus voltage regulation and high power conversion efficiency. In addition, a safe and reliable operation of the system has to be achieved. The selected converter and its controller features are noninverting voltage step up and step down, high efficiency, regulation of input and output currents and low ripple values, and the ability to change from input to output current regulation loop, suddenly and smoothly, and vice versa. All these features allow it to be positioned in different FC system localizations and simplify the design of the master control. Simulation and experimental results have been validated on a 48-V 1200-W dc bus. [ABSTRACT FROM PUBLISHER]
- Published
- 2015
- Full Text
- View/download PDF
4. Hysteretic Transition Method for Avoiding the Dead-Zone Effect and Subharmonics in a Noninverting Buck-Boost Converter.
- Author
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Restrepo, Carlos, Konjedic, Tine, Calvente, Javier, and Giral, Roberto
- Subjects
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ELECTRICAL harmonics , *ANOXIC zones , *ELECTRIC potential , *CONVERTERS (Electronics) , *ENERGY consumption , *DC-to-DC converters - Abstract
A new hysteresis window method is proposed as a solution for avoiding the operational dead zone that exists at the transition between buck and boost operating modes in all non-inverting buck-boost converters. In addition, this method also eliminates the discontinuities in the converter's steady-state output voltage transfer characteristic, which is a function of the duty cycle. The converter's output voltage function is surjective and, therefore, smooth mode transitions are achieved. The negative effects of operating within the dead zone are shown by the presence of subharmonics in the output voltage, increased output voltage ripple, poor regulation, and the instability of the converter during the transition between buck and boost operating modes. The dead-zone avoidance technique proposed in this paper eliminates all these issues while at the same time ensures highly efficient operation of the converter. An additional advantage of the technique is its simplicity, which allows for implementation into low-cost digital signal controllers, as well as into analog control circuits. The advantageous features of the proposed approach were evaluated on the basis of comparisons with three other dead-zone avoidance approaches and the initial case, which does not utilize any deadzone avoidance technique. All the experiments were carried out on a purpose-built prototype of a noninverting buck-boost converter with magnetically coupled inductors. [ABSTRACT FROM AUTHOR]
- Published
- 2015
- Full Text
- View/download PDF
5. Asymmetrical Interleaved DC/DC Switching Converters for Photovoltaic and Fuel Cell Applications--Part 2: Control-Oriented Models.
- Author
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Arango, Eliana, Ramos-Paja, Carlos Andres, Calvente, Javier, Giral, Roberto, and Serna-Garces, Sergio Ignacio
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ELECTRONIC switch-mode DC-to-DC converters , *DC-to-DC converters , *PHOTOVOLTAIC cells , *FUEL cells , *CODING theory , *MATHEMATICAL models - Abstract
A previous article has presented the members of the asymmetrical interleaved dc/dc switching converters family as very appropriate candidates to interface between photovoltaic or fuel cell generators and their loads because of their reduced ripple and increased current processing capabilities. After a review of the main modeling methods suitable for high-order converters operating, as the asymmetrical interleaved converters (AIC) ones, in discontinuous current conduction mode a full-order averaged model has been adapted and improved to describe the dynamic behavior of AIC. The excellent agreement between the mathematical model predictions, the switched simulations and the experimental results has allowed for satisfactory design of a linear-quadratic regulator (LQR) in a fuel-cell application example, which demonstrates the usefulness of the improved control-oriented modeling approach when the switching converters operate in discontinuous conduction mode. [ABSTRACT FROM AUTHOR]
- Published
- 2013
- Full Text
- View/download PDF
6. Fast Transitions Between Current Control Loops of the Coupled-Inductor Buck–Boost DC–DC Switching Converter.
- Author
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Restrepo, Carlos, Konjedic, Tine, Calvente, Javier, Milanovic, Miro, and Giral, Roberto
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ELECTRIC power system control , *ELECTRIC inductors , *DC-to-DC converters , *SWITCHING theory , *MAGNETIC coupling , *ELECTRIC power - Abstract
An already published current control strategy for the coupled-inductor buck–boost converter is able to change its aim from controlling the input current to controlling the output current, and vice versa, depending on the instantaneous operation point and the applied current references. The main drawback of the two PI-based control implementation is its slow response when the control aim is changed from one current to the other. Due to the magnetic coupling, the converter’s control-to-input and control-to-output current small signal transfer functions exhibit similar first-order characteristics. Therefore, it is possible to transform the previous control scheme to a PI-based one that exhibits faster and, in certain cases, much faster transitions between input and output current control operation. The presented experiments also show that the steady-state behavior of the converter is unaffected by the new control implementation. [ABSTRACT FROM AUTHOR]
- Published
- 2013
- Full Text
- View/download PDF
7. Reactivation System for Proton-Exchange Membrane Fuel-Cells.
- Author
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Restrepo, Carlos, Avino, Oriol, Calvente, Javier, Romero, Alfonso, Milanovic, Miro, and Giral, Roberto
- Subjects
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PROTON exchange membrane fuel cells , *ELECTRIC power systems , *DC-to-DC converters , *ELECTRIC current converters , *FUEL cells - Abstract
In recent years, Proton-Exchange Membrane Fuel Cells (PEMFCs) have been the focus of very intensive researches. Manufacturers of these alternative power sources propose a rejuvenation sequence after the FC has been operating at high power for a certain period of time. These rejuvenation methods could be not appropriate for the reactivation of the FC when it has been out of operation for a long period of time or after it has been repaired. Since the developed reactivation system monitors temperature, current, and the cell voltages of the stack, it could be also useful for the diagnostic and repairing processes. The limited number of published contributions suggests that systems developing reactivation techniques are an open research field. In this paper, an automated system for reactivating PEMFCs and results of experimental testing are presented. [ABSTRACT FROM AUTHOR]
- Published
- 2012
- Full Text
- View/download PDF
8. A Noninverting Buck–Boost DC–DC Switching Converter With High Efficiency and Wide Bandwidth.
- Author
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Restrepo, Carlos, Calvente, Javier, Cid-Pastor, Angel, Aroudi, Abdelali El, and Giral, Roberto
- Subjects
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DC-to-DC converters , *BANDWIDTHS , *ELECTRIC inductors , *CAPACITORS , *DAMPING (Mechanics) , *ELECTRIC switchgear , *TRANSFER functions , *ELECTRIC potential - Abstract
A novel dc–dc switching converter consisting of a boost stage cascaded with a buck converter with their coils magnetically coupled is presented. The disclosed converter has the same step-up or step-down voltage conversion properties than the single inductor noninverting buck–boost converter but exhibits nonpulsating I/O currents. The converter control-to-output transfer function is continuous between operation modes if a particular magnetic coupling is selected. The addition of a damping network improves the dynamics and results in a control-to-output transfer function that has, even in boost mode, two dominant complex poles without right-half-plane zeros. An example shows that an output voltage controller can be designed with the same well-known techniques usually applied to the second-order buck regulator. Details of a prototype and experimental results including efficiency, frequency, and time domain responses are presented. The experimental results validate the theoretical expected advantages of the converter, namely, good efficiency, wide bandwidth, and simplicity of control design. [ABSTRACT FROM AUTHOR]
- Published
- 2011
- Full Text
- View/download PDF
9. Modelling of SEPIC, Ćuk and Zeta Converters in Discontinuous Conduction Mode and Performance Evaluation.
- Author
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Madrid, Emerson, Murillo-Yarce, Duberney, Restrepo, Carlos, Muñoz, Javier, and Giral, Roberto
- Subjects
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DC-to-DC converters , *YIELD strength (Engineering) , *DYNAMIC models , *CAPACITOR switching , *DIODES , *VOLTAGE - Abstract
High-order switched DC-DC converters, such as SEPIC, Ćuk and Zeta, are classic energy processing elements, which can be used in a wide variety of applications due to their capacity to step-up and/or step-down voltage characteristic. In this paper, a novel methodology for analyzing the previous converters operating in discontinuous conduction mode (DCM) is applied to obtain full-order dynamic models. The analysis is based on the fact that inductor currents have three differentiated operating sub-intervals characterized by a third one in which both currents become equal, which implies that the current flowing through the diode is zero (DCM). Under a small voltage ripple hypothesis, the currents of all three converters have similar current piecewise linear shapes that allow us to use a graphical method based on the triangular shape of the diode current to obtain the respective non-linear average models. The models' linearization around their steady-state operating points yields full-order small-signal models that reproduce accurately the dynamic behavior of the corresponding switched model. The proposed methodology is applicable to the proposed converters and has also been extended to more complex topologies with magnetic coupling between inductors and/or an R C damping network in parallel with the intermediate capacitor. Several tests were carried out using simulation, hardware-in-the-loop, and using an experimental prototype. All the results validate the theoretical models. [ABSTRACT FROM AUTHOR]
- Published
- 2021
- Full Text
- View/download PDF
10. Dynamics and Stability Issues of a Single-Inductor Dual-Switching DC-DC Converter.
- Author
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Moreno-Font, Vanessa, El Aroudi, Abdelali, Calvente, Javier, Giral, Roberto, and Benadero, Luis
- Subjects
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BIFURCATION theory , *DC-to-DC converters , *POWER electronics , *ELECTRIC inductors , *DYNAMIC testing - Abstract
A single-inductor two-input two-output power electronic dc-dc converter can be used to regulate two generally nonsymmetric positive and negative outputs by means of a pulsewidth modulation with a double voltage feedback. This paper studies the dynamic behavior of this system. First, the operation modes and the steady-state properties of the converter are addressed, and, then, a stability analysis that includes both the power stage and control parameters is carried out. Different bifurcations are determined from the averaged model and from the discrete-time model. The Routh-Hurwitz criterion is used to obtain the stability regions of the averaged (slow-scale) dynamics in the design parameter space, and a discrete-time approach is used to obtain more accurate results and to detect possible (fast-scale) subharmonic oscillations. Experimental measurements were taken from a system prototype to confirm the analytical results and numerical simulations. Some possible nonsmooth bifurcations due to the change in the switching patterns are also illustrated. [ABSTRACT FROM AUTHOR]
- Published
- 2010
- Full Text
- View/download PDF
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